Description
Metallic Foam Bone
Processing, Modification and Characterization and Properties
Coordinator: Wen Cuie
Language: EnglishSubject for Metallic Foam Bone:
Keywords
�ZrO2; �ZrTiO4; Acid and heat treatment; Additive manufacturing; Alloy composition; Antibacterial; Apatite-forming ability; Aqueous electrolyte; Bacterial infection; Beam; Bioactivity; Biomedical manufacturing; Blowing agent; Bone-bonding property; Cell response; Cervical vertebrae interbody fusion; Compressive strength; Dental implant; Electron beam melting; Escherichia coli; Hard tissue engineering; Hydrophilicity; Hydroxyapatite; Lumbar interbody fusion; Magnesium; Mechanical properties; Medical metal materials; Melt processing methods; Metallic foams; Nanotube; nanotube; Nanotubes; Nanotubular surface; NaOH and heat treatment; Nonaqueous electrolyte; Osseointegration; Osteoconduction; Osteoconductivity; Osteoinduction; Porosity; Porous titanium foam; Porous titanium; Porphyromonas gingivalis; Powder metallurgy; Powder sintering; Powder; Preform; Roughness; Scaffold; Scaffolds; Selective laser melting; Selective laser sintering; Stainless steel; Staphylococcus aureus; Substrate; Surface energy; Thixocasting; TiO2; Tissue engineering implant; Tissue engineering scaffold; Titanium alloy
Support: Print on demand
Description
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Metallic Foam Bone: Processing, Modification and Characterization and Properties examines the use of porous metals as novel bone replacement materials. With a strong focus on materials science and clinical applications, the book also examines the modification of metals to ensure their biocompatibility and efficacy in vivo.
Initial chapters discuss processing and production methods of metals for tissue engineering and biomedical applications that are followed by topics on practical applications in orthopedics and dentistry. Finally, the book addresses the surface science of metallic foam and how it can be tailored for medical applications.
This book is a valuable resource for materials scientists, biomedical engineers, and clinicians with an interest in innovative biomaterials for orthopedic and bone restoration.
1. Metallic scaffolds manufactured by selective laser melting for biomedical applications
2. Production methods and characterization of porous Mg and Mg alloys for biomedical applications
3. Metal scaffolds processed by electron beam melting for biomedical applications
4. Titanium foam for bone tissue engineering
5. Titanium foam scaffolds for dental applications
6. Chemical surface modification of a titanium scaffold
7. Nanotopography and surface chemistry of TiO2–ZrO2–ZrTiO4 nanotubular surfaces and the influence on their bioactivity and cell responses
8. Antibacterial design for metal implants
9. The bioactivity and bone cell attachment of nanotubular layers anodized in aqueous and nonaqueous electrolytes
Cuie has published over 400 peer reviewed articles with an h-index 51 and citations over 9919 (Google Scholar). Cuie has supervised 10 postdoctoral research projects and 28 post graduate students to completion. She is an editorial board member for the journals of Acta Biomaterialia, Bioactive Materials, and International Journal of Extreme Manufacturing. Her research interests include new biocompatible titanium, magnesium, iron, zinc and their alloys and scaffolds for biomedical applications, surface modification, nanostructured metals, alloys and composites, metal foams and nanolaminates.
- Introduces biomaterials researchers to a promising, rapidly developing technology for replacing hard tissue
- Increases familiarity with a range of technologies, enabling materials scientists and engineers to improve the material properties of porous metals
- Explores the clinical applications of metal foams in orthopedics and dentistry